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bevdepth-r50.py
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bevdepth-r50.py
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# Copyright (c) Phigent Robotics. All rights reserved.
_base_ = ['../_base_/datasets/nus-3d.py',
'../_base_/default_runtime.py']
# Global
# If point cloud range is changed, the models should also change their point
# cloud range accordingly
point_cloud_range = [-51.2, -51.2, -5.0, 51.2, 51.2, 3.0]
# For nuScenes we usually do 10-class detection
class_names = [
'car', 'truck', 'construction_vehicle', 'bus', 'trailer', 'barrier',
'motorcycle', 'bicycle', 'pedestrian', 'traffic_cone'
]
data_config={
'cams': ['CAM_FRONT_LEFT', 'CAM_FRONT', 'CAM_FRONT_RIGHT',
'CAM_BACK_LEFT', 'CAM_BACK', 'CAM_BACK_RIGHT'],
'Ncams': 6,
'input_size': (256, 704),
'src_size': (900, 1600),
# Augmentation
'resize': (-0.06, 0.11),
'rot': (-5.4, 5.4),
'flip': True,
'crop_h': (0.0, 0.0),
'resize_test':0.04,
}
# Model
grid_config={
'xbound': [-51.2, 51.2, 0.8],
'ybound': [-51.2, 51.2, 0.8],
'zbound': [-10.0, 10.0, 20.0],
'dbound': [1.0, 60.0, 1.0],}
voxel_size = [0.1, 0.1, 0.2]
numC_Trans=64
model = dict(
type='BEVDepth',
img_backbone=dict(
pretrained='torchvision://resnet50',
type='ResNet',
depth=50,
num_stages=4,
out_indices=(2, 3),
frozen_stages=-1,
norm_cfg=dict(type='BN', requires_grad=True),
norm_eval=False,
with_cp=True,
style='pytorch'),
img_neck=dict(
type='FPNForBEVDet',
in_channels=[1024, 2048],
out_channels=512,
num_outs=1,
start_level=0,
out_ids=[0]),
img_view_transformer=dict(type='ViewTransformerLSSBEVDepth',
loss_depth_weight=100.0,
grid_config=grid_config,
data_config=data_config,
numC_Trans=numC_Trans,
extra_depth_net=dict(type='ResNetForBEVDet',
numC_input=256,
num_layer=[3,],
num_channels=[256,],
stride=[1,])),
img_bev_encoder_backbone = dict(type='ResNetForBEVDet', numC_input=numC_Trans),
img_bev_encoder_neck = dict(type='FPN_LSS',
in_channels=numC_Trans*8+numC_Trans*2,
out_channels=256),
pts_bbox_head=dict(
type='CenterHead',
task_specific=True,
in_channels=256,
tasks=[
dict(num_class=1, class_names=['car']),
dict(num_class=2, class_names=['truck', 'construction_vehicle']),
dict(num_class=2, class_names=['bus', 'trailer']),
dict(num_class=1, class_names=['barrier']),
dict(num_class=2, class_names=['motorcycle', 'bicycle']),
dict(num_class=2, class_names=['pedestrian', 'traffic_cone']),
],
common_heads=dict(
reg=(2, 2), height=(1, 2), dim=(3, 2), rot=(2, 2), vel=(2, 2)),
share_conv_channel=64,
bbox_coder=dict(
type='CenterPointBBoxCoder',
pc_range=point_cloud_range[:2],
post_center_range=[-61.2, -61.2, -10.0, 61.2, 61.2, 10.0],
max_num=500,
score_threshold=0.1,
out_size_factor=8,
voxel_size=voxel_size[:2],
code_size=9),
separate_head=dict(
type='SeparateHead', init_bias=-2.19, final_kernel=3),
loss_cls=dict(type='GaussianFocalLoss', reduction='mean'),
loss_bbox=dict(type='L1Loss', reduction='mean', loss_weight=0.25),
norm_bbox=True),
# model training and testing settings
train_cfg=dict(
pts=dict(
point_cloud_range=point_cloud_range,
grid_size=[1024, 1024, 40],
voxel_size=voxel_size,
out_size_factor=8,
dense_reg=1,
gaussian_overlap=0.1,
max_objs=500,
min_radius=2,
code_weights=[1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 1.0, 0.2, 0.2])),
test_cfg=dict(
pts=dict(
pc_range=point_cloud_range[:2],
post_center_limit_range=[-61.2, -61.2, -10.0, 61.2, 61.2, 10.0],
max_per_img=500,
max_pool_nms=False,
min_radius=[4, 12, 10, 1, 0.85, 0.175],
score_threshold=0.1,
out_size_factor=8,
voxel_size=voxel_size[:2],
# nms_type='circle',
pre_max_size=1000,
post_max_size=83,
# nms_thr=0.2,
# Scale-NMS
nms_type=['rotate', 'rotate', 'rotate', 'circle', 'rotate', 'rotate'],
nms_thr=[0.2, 0.2, 0.2, 0.2, 0.2, 0.5],
nms_rescale_factor=[1.0, [0.7, 0.7], [0.4, 0.55], 1.1, [1.0, 1.0], [4.5, 9.0]]
)))
# Data
dataset_type = 'NuScenesDataset'
data_root = 'data/nuscenes/'
file_client_args = dict(backend='disk')
train_pipeline = [
dict(type='LoadMultiViewImageFromFiles_BEVDet', is_train=True, data_config=data_config),
dict(
type='LoadPointsFromFile',
coord_type='LIDAR',
load_dim=5,
use_dim=5,
file_client_args=file_client_args),
dict(type='LoadAnnotations3D', with_bbox_3d=True, with_label_3d=True),
dict(
type='GlobalRotScaleTrans',
rot_range=[-0.3925, 0.3925],
scale_ratio_range=[0.95, 1.05],
translation_std=[0, 0, 0],
update_img2lidar=True),
dict(
type='RandomFlip3D',
sync_2d=False,
flip_ratio_bev_horizontal=0.5,
flip_ratio_bev_vertical=0.5,
update_img2lidar=True),
dict(type='PointToMultiViewDepth', grid_config=grid_config),
dict(type='ObjectRangeFilter', point_cloud_range=point_cloud_range),
dict(type='ObjectNameFilter', classes=class_names),
dict(type='DefaultFormatBundle3D', class_names=class_names),
dict(type='Collect3D', keys=['img_inputs', 'gt_bboxes_3d', 'gt_labels_3d'],
meta_keys=('filename', 'ori_shape', 'img_shape', 'lidar2img',
'depth2img', 'cam2img', 'pad_shape',
'scale_factor', 'flip', 'pcd_horizontal_flip',
'pcd_vertical_flip', 'box_mode_3d', 'box_type_3d',
'img_norm_cfg', 'pcd_trans', 'sample_idx',
'pcd_scale_factor', 'pcd_rotation', 'pts_filename',
'transformation_3d_flow', 'img_info'))
]
test_pipeline = [
dict(type='LoadMultiViewImageFromFiles_BEVDet', data_config=data_config),
# load lidar points for --show in test.py only
dict(
type='LoadPointsFromFile',
coord_type='LIDAR',
load_dim=5,
use_dim=5,
file_client_args=file_client_args),
dict(type='PointToMultiViewDepth', grid_config=grid_config),
dict(
type='MultiScaleFlipAug3D',
img_scale=(1333, 800),
pts_scale_ratio=1,
flip=False,
transforms=[
dict(
type='DefaultFormatBundle3D',
class_names=class_names,
with_label=False),
dict(type='Collect3D', keys=['points','img_inputs'])
])
]
# construct a pipeline for data and gt loading in show function
# please keep its loading function consistent with test_pipeline (e.g. client)
eval_pipeline = [
dict(type='LoadMultiViewImageFromFiles_BEVDet', data_config=data_config),
dict(
type='LoadPointsFromFile',
coord_type='LIDAR',
load_dim=5,
use_dim=5,
file_client_args=file_client_args),
dict(type='PointToMultiViewDepth', grid_config=grid_config),
dict(
type='DefaultFormatBundle3D',
class_names=class_names,
with_label=False),
dict(type='Collect3D', keys=['img_inputs'])
]
input_modality = dict(
use_lidar=False,
use_camera=True,
use_radar=False,
use_map=False,
use_external=False)
data = dict(
samples_per_gpu=8,
workers_per_gpu=4,
train=dict(
type='CBGSDataset',
dataset=dict(
type=dataset_type,
data_root=data_root,
ann_file=data_root + 'nuscenes_infos_train.pkl',
pipeline=train_pipeline,
classes=class_names,
test_mode=False,
use_valid_flag=True,
modality=input_modality,
# we use box_type_3d='LiDAR' in kitti and nuscenes dataset
# and box_type_3d='Depth' in sunrgbd and scannet dataset.
box_type_3d='LiDAR',
img_info_prototype='bevdet')),
val=dict(pipeline=test_pipeline, classes=class_names,
modality=input_modality, img_info_prototype='bevdet'),
test=dict(pipeline=test_pipeline, classes=class_names,
modality=input_modality, img_info_prototype='bevdet'))
# Optimizer
optimizer = dict(type='AdamW', lr=2e-4, weight_decay=0.01)
optimizer_config = dict(grad_clip=None)
lr_config = dict(
policy='step',
warmup='linear',
warmup_iters=500,
warmup_ratio=0.001,
step=[16, 22])
runner = dict(type='EpochBasedRunner', max_epochs=24)